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ByzantinePlace
Byzantine Broadcast (BB) is a central question in distributed systems, and an important challenge is to understand its round complexity. Under the honest majority setting, it is long known that there exist randomized protocols that can achieve BB in expected constant rounds, regardless of the number of nodes $n$. However, whether we can match the expected constant round complexity in the corrupt majority setting --- or more precisely, when $f \geq n/2 + \omega(1)$ --- remains unknown, where $f$ denotes the number of corrupt nodes. In this paper, we are the first to resolve this long-standing question. We show how to achieve BB in expected $O((n/(n-f))^2)$ rounds. Our results hold under both a static adversary and a weakly adaptive adversa...
In a seminal paper, Feldman and Micali (STOC ’88) show an n-party Byzantine agreement protocol toler...
In a seminal paper, Feldman and Micali (STOC ’88) show an n-party Byzantine agreement protocol toler...
This paper considers unconditionally secure protocols for reliable broadcast among a set of n player...
This electronic version was submitted by the student author. The certified thesis is available in th...
Minimizing the round complexity of byzantine broadcast is a fundamental question in distributed comp...
Broadcast among n parties in the presence of t ≥ n/3 malicious parties is possible only with some ad...
Broadcast protocols enable a set of $n$ parties to agree on the input of a designated sender, even f...
Broadcast protocols enable a set of $n$ parties to agree on the input of a designated sender, even f...
In a seminal paper, Feldman and Micali (STOC \u2788) show an $n$-party Byzantine agreement protocol ...
We prove lower bounds on the round complexity of randomized Byzantine agreement (BA) protocols, boun...
Byzantine Broadcast is crucial for many cryptographic protocols such as secret sharing, multiparty c...
It is well-known that Asynchronous Total Order Broadcast (ATOB) requires randomisation and that at m...
Byzantine Broadcast is crucial for many cryptographic pro- tocols such as secret sharing, multiparty...
AbstractIn a seminal paper, Feldman and Micali show an n-party Byzantine agreement protocol in the p...
In a seminal paper, Feldman and Micali have shown an n-party Byzantine agreement protocol tolerating...
In a seminal paper, Feldman and Micali (STOC ’88) show an n-party Byzantine agreement protocol toler...
In a seminal paper, Feldman and Micali (STOC ’88) show an n-party Byzantine agreement protocol toler...
This paper considers unconditionally secure protocols for reliable broadcast among a set of n player...
This electronic version was submitted by the student author. The certified thesis is available in th...
Minimizing the round complexity of byzantine broadcast is a fundamental question in distributed comp...
Broadcast among n parties in the presence of t ≥ n/3 malicious parties is possible only with some ad...
Broadcast protocols enable a set of $n$ parties to agree on the input of a designated sender, even f...
Broadcast protocols enable a set of $n$ parties to agree on the input of a designated sender, even f...
In a seminal paper, Feldman and Micali (STOC \u2788) show an $n$-party Byzantine agreement protocol ...
We prove lower bounds on the round complexity of randomized Byzantine agreement (BA) protocols, boun...
Byzantine Broadcast is crucial for many cryptographic protocols such as secret sharing, multiparty c...
It is well-known that Asynchronous Total Order Broadcast (ATOB) requires randomisation and that at m...
Byzantine Broadcast is crucial for many cryptographic pro- tocols such as secret sharing, multiparty...
AbstractIn a seminal paper, Feldman and Micali show an n-party Byzantine agreement protocol in the p...
In a seminal paper, Feldman and Micali have shown an n-party Byzantine agreement protocol tolerating...
In a seminal paper, Feldman and Micali (STOC ’88) show an n-party Byzantine agreement protocol toler...
In a seminal paper, Feldman and Micali (STOC ’88) show an n-party Byzantine agreement protocol toler...
This paper considers unconditionally secure protocols for reliable broadcast among a set of n player...
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